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A voltage regulation control arc robot additive forming system

An arc robot and additive forming technology, applied in the field of additive manufacturing, can solve problems such as adjustment, weak overcurrent capability of thyristor, and scrapped workpieces.

Active Publication Date: 2020-04-28
NANJING UNIV OF SCI & TECH
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  • Abstract
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Problems solved by technology

[0002] The way to achieve voltage regulation is mainly through transformers, thyristor control, voltage regulators, etc., but because the transformer is bulky and noisy, and the overcurrent capability of the thyristor is weak, the current in the process of additive manufacturing is relatively large, so it is not necessary Adoption, but mainly rely on artificial passive adjustment
[0003] At present, the problem of arc additive manufacturing is mainly due to the accumulation of heat and the immobilization of parameters during the additive process, resulting in the collapse of the deposition layer for some large workpieces at the end of the additive process, resulting in the scrapping of the workpiece
[0004] The current arc additive guns are only used as one end of the electrode, and cannot realize the arc generated between the welding torch and the workpiece into a controlled arc, resulting in the arc not being able to change according to the voltage and arc heat during the additive process. Changes in the thickness of the workpiece, etc. to achieve adjustment

Method used

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  • A voltage regulation control arc robot additive forming system
  • A voltage regulation control arc robot additive forming system
  • A voltage regulation control arc robot additive forming system

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Experimental program
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Embodiment 1

[0027] The voltage regulation control arc additive forming method of the present invention is based on the digital welding technology of MATLAB, an ADLINK embedded Matrix MXC-4002D industrial computer, the industrial computer has been installed with a data processing program based on MATLAB software, and a new Fronius An additive welding torch and its built-in wire feeder, a self-made shape memory device with its built-in temperature sensor, and a set of Advantech USB-4711 data acquisition card.

[0028] combine figure 1 , 2 3. When the additive manufacturing work starts, the preset voltage value of the welding machine is 185V collected through the data acquisition card, and the built-in temperature sensor of the shape memory detects the real-time temperature of the additive gun nozzle at 21°C. After the two sets of data are transmitted to the industrial computer, the The data processing program based on MATLAB software installed in the industrial computer compares the two se...

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Abstract

A voltage-regulating arc robot additive forming system adopts arc voltage control method to realize arc control and form a controlled arc additive forming process. It mainly improves the structure of the welding torch. The appearance of the improved welding torch is roughly similar to that of a plasma arc welding torch. The additive forming system of the present invention can realize pressure regulation through the distance between the welding wire and the workpiece during the process of additive forming by setting the pressure-regulating control welding gun. In addition, the through-hole diameter of the welding gun in the system of the present invention can be adjusted Real-time increase and decrease through voltage feedback, so as to control the shape of the output arc, and then adjust the transition form and frequency of the droplet, and finally realize the process control of the additive formed part.

Description

technical field [0001] The invention relates to controlling the shape of the arc through voltage, realizing different forms of droplet transfer, and adopting a voltage regulation control type arc robot to realize additive manufacturing. Background technique [0002] The way to achieve voltage regulation is mainly through transformers, thyristor control, voltage regulators, etc., but because the transformer is bulky and noisy, and the overcurrent capability of the thyristor is weak, the current in the process of additive manufacturing is relatively large, so it is not necessary. Adoption, but mainly rely on artificial passive adjustment. [0003] At present, the problem of arc additive manufacturing is mainly due to the accumulation of heat and the immobilization of parameters during the additive process, which leads to the collapse of the deposition layer for some large workpieces at the end of the additive process, resulting in the scrapping of the workpiece. [0004] The ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23K9/04B23K9/095
CPCB23K9/04B23K9/095
Inventor 王克鸿唐燕生陶维康承飞贺申黄勇钱美霞彭雪许华银吴成成刘智慧陈涵马新蕊
Owner NANJING UNIV OF SCI & TECH
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